How to connect to data on GCS using Pandas
This guide will help you connect to your data stored on GCS using Pandas. This will allow you to ValidateThe act of applying an Expectation Suite to a Batch. and explore your data.
Prerequisites: This how-to guide assumes you have:
- Completed the Getting Started Tutorial
- Have a working installation of Great Expectations
- Have access to data on a GCS bucket
Steps
1. Choose how to run the code in this guide
Get an environment to run the code in this guide. Please choose an option below.
- CLI + filesystem
- No CLI + filesystem
- No CLI + no filesystem
If you use the Great Expectations CLICommand Line Interface, run this command to automatically generate a pre-configured Jupyter Notebook. Then you can follow along in the YAML-based workflow below:
great_expectations datasource new
If you use Great Expectations in an environment that has filesystem access, and prefer not to use the CLICommand Line Interface, run the code in this guide in a notebook or other Python script.
If you use Great Expectations in an environment that has no filesystem (such as Databricks or AWS EMR), run the code in this guide in that system's preferred way.
2. Instantiate your project's DataContext
Import these necessary packages and modules.
from ruamel import yaml
import great_expectations as ge
from great_expectations.core.batch import Batch, BatchRequest, RuntimeBatchRequest
Load your DataContext into memory using the get_context() method.
context = ge.get_context()
3. Configure your Datasource
Great Expectations provides two types of DataConnectors classes for connecting to GCS: InferredAssetGCSDataConnector and ConfiguredAssetGCSDataConnector
- An
InferredAssetGCSDataConnectorutilizes regular expressions to inferdata_asset_namesby evaluating filename patterns that exist in your bucket. ThisDataConnector, along with aRuntimeDataConnector, is provided as a default when utilizing our Jupyter Notebooks. - A
ConfiguredAssetGCSDataConnectorrequires an explicit listing of eachDataAssetyou want to connect to. This allows for more granularity and control than itsInferredcounterpart but also requires a more complex setup.
As the InferredAssetDataConnectors have fewer options and are generally simpler to use, we recommend starting with them.
We've detailed example configurations for both options in the next section for your reference.
It is also important to note that GCS DataConnectors support various methods of authentication. You should be aware of the following options when configuring your own environment:
gcloudcommand line tool /GOOGLE_APPLICATION_CREDENTIALSenvironment variable.- This is the default option and what is used throughout this guide.
- Passing a
filenameargument to the optionalgcs_optionsdictionary.- This argument should contain a specific filepath that leads to your credentials JSON.
- This method utilizes
google.oauth2.service_account.Credentials.from_service_account_fileunder the hood.
- Passing an
infoargument to the optionalgcs_optionsdictionary.- This argument should contain the actual JSON data from your credentials file in the form of a string.
- This method utilizes
google.oauth2.service_account.Credentials.from_service_account_infounder the hood.
Please note that if you use the filename or info options, you must supply these options to any GE objects that interact with GCS (i.e. PandasExecutionEngine).
The gcs_options dictionary is also responsible for storing any **kwargs you wish to pass to the GCS storage.Client() connection object (i.e. project)
For more details regarding storing credentials for use with Great Expectations see: How to configure credentials
For more details regarding authentication, please visit the following:
Using these example configurations, add in your GCS bucket and path to a directory that contains some of your data:
- Inferred + Runtime (Default)
- Configured
The below configuration is representative of the default setup you'll see when preparing your own environment.
- YAML
- Python
datasource_yaml = rf"""
name: my_gcs_datasource
class_name: Datasource
execution_engine:
class_name: PandasExecutionEngine
data_connectors:
default_runtime_data_connector_name:
class_name: RuntimeDataConnector
batch_identifiers:
- default_identifier_name
default_inferred_data_connector_name:
class_name: InferredAssetGCSDataConnector
bucket_or_name: <YOUR_GCS_BUCKET_HERE>
prefix: <BUCKET_PATH_TO_DATA>
default_regex:
pattern: (.*)\.csv
group_names:
- data_asset_name
"""
Run this code to test your configuration.
context.add_datasource(**yaml.load(datasource_yaml))
datasource_config = {
"name": "my_gcs_datasource",
"class_name": "Datasource",
"execution_engine": {"class_name": "PandasExecutionEngine"},
"data_connectors": {
"default_runtime_data_connector_name": {
"class_name": "RuntimeDataConnector",
"batch_identifiers": ["default_identifier_name"],
},
"default_inferred_data_connector_name": {
"class_name": "InferredAssetGCSDataConnector",
"bucket_or_name": "<YOUR_GCS_BUCKET_HERE>",
"prefix": "<BUCKET_PATH_TO_DATA>",
"default_regex": {
"pattern": "(.*)\\.csv",
"group_names": ["data_asset_name"],
},
},
},
}
Run this code to test your configuration.
context.test_yaml_config(yaml.dump(datasource_config))
The below configuration is highly tuned to the specific bucket and blobs relevant to this example. You'll have to fine-tune your own regular expressions and assets to fit your use-case.
- YAML
- Python
datasource_yaml = f"""
name: my_gcs_datasource
class_name: Datasource
execution_engine:
class_name: PandasExecutionEngine
data_connectors:
configured_data_connector_name:
class_name: ConfiguredAssetGCSDataConnector
bucket_or_name: <YOUR_GCS_BUCKET_HERE>
prefix: <BUCKET_PATH_TO_DATA>
default_regex:
pattern: data/taxi_yellow_tripdata_samples/yellow_tripdata_sample_(\\d{{4}})-(\\d{{2}})\\.csv
group_names:
- year
- month
assets:
taxi_data:
"""
Run this code to test your configuration.
context.add_datasource(**yaml.load(datasource_yaml))
datasource_config = {
"name": "my_gcs_datasource",
"class_name": "Datasource",
"execution_engine": {"class_name": "PandasExecutionEngine"},
"data_connectors": {
"configured_data_connector_name": {
"class_name": "ConfiguredAssetGCSDataConnector",
"bucket_or_name": "<YOUR_GCS_BUCKET_HERE>",
"prefix": "<BUCKET_PATH_TO_DATA>",
"default_regex": {
"pattern": "data/taxi_yellow_tripdata_samples/yellow_tripdata_sample_(\\d{4})-(\\d{2})\\.csv",
"group_names": ["year", "month"],
},
"assets": {"taxi_data": None},
}
},
}
Run this code to test your configuration.
context.test_yaml_config(yaml.dump(datasource_config))
If you specified a GCS path containing CSV files you will see them listed as Available data_asset_names in the output of test_yaml_config().
Feel free to adjust your configuration and re-run test_yaml_config() as needed.
4. Save the Datasource configuration to your DataContext
Save the configuration into your DataContext by using the add_datasource() function.
- YAML
- Python
context.add_datasource(**yaml.load(datasource_yaml))
context.add_datasource(**datasource_config)
5. Test your new Datasource
Verify your new DatasourceProvides a standard API for accessing and interacting with data from a wide variety of source systems. by loading data from it into a ValidatorUsed to run an Expectation Suite against data. using a Batch RequestProvided to a Datasource in order to create a Batch..
- Specify a GCS path to single CSV
- Specify a data_asset_name
Add the GCS path to your CSV in the path key under runtime_parameters in your RuntimeBatchRequest.
Please note we support the following format for GCS URL's: gs://<BUCKET_OR_NAME>/<BLOB>.
batch_request = RuntimeBatchRequest(
datasource_name="my_gcs_datasource",
data_connector_name="default_runtime_data_connector_name",
data_asset_name="<YOUR_MEANGINGFUL_NAME>", # this can be anything that identifies this data_asset for you
runtime_parameters={"path": "<PATH_TO_YOUR_DATA_HERE>"}, # Add your GCS path here.
batch_identifiers={"default_identifier_name": "default_identifier"},
)
Then load data into the Validator.
context.create_expectation_suite(
expectation_suite_name="test_suite", overwrite_existing=True
)
validator = context.get_validator(
batch_request=batch_request, expectation_suite_name="test_suite"
)
print(validator.head())
Add the name of the Data AssetA collection of records within a Datasource which is usually named based on the underlying data system and sliced to correspond to a desired specification. to the data_asset_name in your BatchRequest.
batch_request = BatchRequest(
datasource_name="my_gcs_datasource",
data_connector_name="default_inferred_data_connector_name",
data_asset_name="<YOUR_DATA_ASSET_NAME>",
)
Then load data into the Validator.
context.create_expectation_suite(
expectation_suite_name="test_suite", overwrite_existing=True
)
validator = context.get_validator(
batch_request=batch_request, expectation_suite_name="test_suite"
)
print(validator.head())
🚀🚀 Congratulations! 🚀🚀 You successfully connected Great Expectations with your data.
Additional Notes
If you are working with nonstandard CSVs, read one of these guides:
- How to work with headerless CSVs in pandas
- How to work with custom delimited CSVs in pandas
- How to work with parquet files in pandas
To view the full scripts used in this page, see them on GitHub:
- inferred_and_runtime_yaml_example.py
- inferred_and_runtime_python_example.py
- configured_yaml_example.py
- configured_python_example.py
To review the source code of these DataConnectors, also visit GitHub: